Case presentation
A 72-year-old man presented to our hospital’s emergency department (ED) for evaluation of cervical spine instability. Five weeks prior to presentation to our ED, he was trimming a tree, and fell 8–10 ft. The fall rendered him unconscious, and he was taken to an outside hospital where he was evaluated and discharged in a hard collar with scheduled imaging and neurosurgical follow-up in 5 weeks. The patient had cervical spine radiographs obtained prior to his neurosurgical appointment. These images showed perched facets of C4 on C5. The patient was in our vicinity, and was directed immediately to the ED of our hospital. He had neck pain at presentation, but no neurological symptoms. He underwent MRI of the cervical spine, which better characterized the ligamentous extent of the hyperflexion injury. He was evaluated by neurosurgery, and underwent open reduction and internal fixation (ORIF) due to cervical spine instability. Anterior cervical diskectomy and fusion (ACDF) with lordotic allograft spacer and plate and screw fixation was performed. He did well postoperatively, and was discharged in a hard collar. He has no neurologic deficits or symptoms.
Discussion
Cervical spine trauma is a significant cause of morbidity and mortality. There are several mechanisms that lead to distinct patterns of injury. Bilateral facet dislocation injuries are thought to arise from a flexion–distraction mechanism [1]. With flexion and distraction of the cervical spine, the facet joints are exposed to disruptive tensional stress that leads to perching or jumping of the inferior articular processes of the superior vertebrae onto the superior articular processes of the inferior vertebrae. This tensional stress can also exceed the tensile capacity of the posterior longitudinal ligament and posterior ligamentous complex resulting in their disruption. Anteriorly, flexion–distraction injuries cause compressive stress that can result in vertebral body and disk compression injuries [2]. All of these findings are present in our case (Figs. 1 and 2).
Carrino et al. retrospectively identified patients with bilateral perched or jumped facets, and find 97% of the patients have injury to the interspinous and supraspinous ligaments, 90% have injury to the ligamentum flavum, 90% have disruption of the intervertebral disk, 40% have posterior longitudinal ligament disruption, and 27% have anterior longitudinal ligament disruption [3]. Indeed, MRI shows our patient had perched facets at C4–C5 with bowing of the PLL, injury to the interspinous ligaments and ligamentum flavum and disruption of the intervertebral disk with posterior extrusion. Interestingly, the PLL was found to be disrupted at surgery, meaning MRI was false negative for this finding. Carrino et al. show false-negative integrity of the PLL occurs in 22% of bilateral facet dislocation injuries [3].
Upon our patient’s initial hospital presentation after his fall, he was evaluated by neurosurgery. Reportedly, he had neck pain, but was entirely intact neurologically. Unfortunately, imaging from his initial hospital encounter is not available. He was managed non-operatively in a rigid cervical collar with planned neurosurgical follow-up. After discharge from the hospital, he had persistent neck pain, but remained neurologically asymptomatic. He had follow-up imaging performed 5 weeks after his fall, which showed perched facets (Fig. 1). The vast majority of patients with bilateral perched or jumped facets present with neurological symptoms ranging from radiculopathy to tetraplegia; however, in a few cases such as ours, patients present asymptomatic neurologically. There have been studies suggesting that the degree of anterior vertebral displacement correlates with the neurologic status [4], but this is not completely clear. Our patient did have mild anterolisthesis of C4 on C5, but he remained neurologically unimpaired. However, his constellation of imaging findings is consistent with a flexion–distraction type injury and cervical spine instability. Treatment options for perched cervical facets include reduction with halo traction and ORIF. However, the ligamentous injury commonly associated with bilateral facet dislocations has a high incidence of redislocation after reduction. Furthermore, bilateral facet dislocations have a high association with disk herniation, and in these instances, traction is not advised since it could exacerbate the herniation and cause neurologic compromise. Therefore, ORIF and ACDF are often indicated. Accordingly, our patient underwent ORIF with ACDF for treatment of his bilateral perched C4–C5 facets, posterior ligamentous injury and disk extrusion causing canal stenosis. Remarkably and thankfully, he maintained normal neurologic status throughout his course, and was discharged after an uneventful postoperative course.
Conclusion
A rare case of a neurologically intact patient diagnosed with bilateral perched facets 5 weeks after the inciting injury is presented. The injury mechanism and relevant imaging findings are discussed.
References
Allen BL, Ferguson RL, Lehmann TR, O’Brien RP (1982) A mechanistic classification of closed, indirect fractures and dislocations of the lower cervical spine. Spine 7:1–27
Panjabi MM, Simpson AK, Ivancic PC, Pearson AM, Tominaga Y, Yue JJ (2007) Cervical facet joint kinematics during bilateral facet dislocation. Eur Spine J 16:1680–1688
Carrino JA, Manton GL, Morrison WB et al (2006) Posterior longitudinal ligament status in cervical spine bilateral facet dislocations. Skelet Radiol 35:510–514
O’Connor PA, McCormack O, McCormack J, O’Byrne J (2003) Anterior displacement correlates with neurological impairment in cervical facet dislocations. Int Orthop (SICOT) 27:190–193
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Curtis, B.R., Curtis, E. Perched facets diagnosed in a neurologically intact patient 5 weeks after a fall. Intern Emerg Med 12, 1323–1325 (2017). https://doi.org/10.1007/s11739-017-1649-1
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DOI: https://doi.org/10.1007/s11739-017-1649-1